1st Edition
Fundamentals of Power Systems Analysis 1 Problems and Solutions
A supplementary book on power systems and their points is necessary for every successful student because the main books contain so much information. The supplementary book should include a summary, many tests, and an explanation of the answers.
The structure in Fundamentals of Power System Analysis 1: Problems and Solutions is very helpful for re-reading and summarizing the information. This book can help you increase your study speed and master the important lessons if you are in the last few months of the semester and have not studied.
- This book is styled after national exams, with many varied tests with complete descriptive answers
- This book covers everything you need to know about power systems analysis
- A comprehensive and detailed examination of each image and figure has been conducted in this book.
- Students will be able to review points more quickly. It is particularly helpful before exams or national tests when you are under stress. It has the main advantage of providing an analysis of concepts and their combination. This allows students to better answer questions derived from several other subjects in a combined manner.
Preface
Chapter One: Introduction to the Power System
Part One: Lesson Summary
1-1- Introduction
1-2- Sinusoidal steady-state
1-3- Phasor representation
1-4- Power definition
1-5- Concepts of leading and lagging phase
1-6- Concepts of production and consumption power
1-7- Types of load models
1-8- Power and impedance triangles
1-9- Y-Δ, star-delta transform
1-10- Three-phase systems
1-11- Power factor correction
1-12- Per Unit
1-13- Transmission power
1-14- Generator and motor connected
1-15- Important numerical approximations
Part Two: Answer Question
1-16- four-choice questions - 47 questions
1-17- Key answers to four-choice questions
1-18- Descriptive answers to four-choice questions
1-19- two-choice questions (yes - no) - 106 questions
1-20- Key answers to two-choice questions
Chapter Two: Transmission Line ParametersPart One: Lesson Summary
2-1- Introduction2-2- Line Resistance
2-3- Line Inductance2-4- Line Capacitance
2-5- CORONA PHENOMENON
2-6- SPECIAL DOUBLE-CIRCUITS LINES
Part Two: Answer Question
2-7- 4-choice questions - 35 questions
2-8- Key answers to 4-choice questions
2-9- Descriptive answers to 4-choice questions
2-10- two choice questions (yes - no) - 80 questions
2-11- Key answers to two-choice questions
Chapter THREE:
Line mODEL AND PERFORMANCE
Part One: Lesson Summary
3-1- Introduction
3-2- TRANSMISSION LINE MODELS
3-3- TRANSMISSION LINE PARAMETERS
3-4- Classification of Transmission Lines
3-5- Convert different line models to each other
3-6- VOLTAGE REGULATION
3-7- The Short circuit and open circuit impedance
3-8- ABCD Parameters of Transmission Lines
3-9- Special network modes
3-10- Travelling Waves of Voltage & Currents
3-11- Lossless Line
3-12- LINE COMPENSATION
3-13- Line Charging Current
3-14- Maximum POWER transfer
Part Two: Answer Question
3-15- Four-choice questions - 50 questions
3-16- Key answers to four-choice questions
3-17- Descriptive answers to 4-choice questions
3-18- Two-choice questions (yes - no) - 107 questions
3-19- Key answers to two-choice questions
Chapter four: POWER FLOW ANALYSIS
Part One: Lesson Summary
4-1- Introduction
4-2- ALGEBRAIC EQUATIONS
4-3- Three major types of nodes or buses
4-4- Solution of Nonlinear equations (Gauss, Newton)
4-5- DC Load flow
4-6- Programming in the form of SPARSE matrices
4-7- Two-bus system load FLOW (analytical method)
4-8- Static voltage stability
4-9- Load Flow based on voltage magnitude
4-10- Transformer with tap changers
4-11- BUS IMPEDANCE MATRIX
4-12- Losses in simple POWER systems
4-13- Load FLOW of distribution systems
Part Two: Answer Question
4-14- four-choice questions - 55 questions
4-15- Key answers to four-choice questions
4-16- Descriptive answers to 4-choice questions
4-17- Two-choice questions (yes - no) - 59 questions
4-18- Key answers to Two-choice questions
REFERENCES
Biography
Mostafa Eidiani (StM'98-SM'16) was born in Mashhad, Iran. He received his B.Eng. (with distinction) and M.Eng degree in electrical engineering from Ferdowsi University of Mashhad, Iran in 1995, 1997 respectively and his Ph.D. degree from the Science and Research Branch, Islamic Azad University, Tehran, Iran in 2004. He is a senior member of IEEE in 2016 and director of the Iranian Association of Electrical and Electronics Engineers (Khorasan Branch) in 2017. He was promoted from Assistant Professor to Associate Professor in 2016. His research interests include renewable energy integration, power system control, transient and voltage stability, power system simulation, and DIgSILENT Powerfactory.
He has authored or co-authored 7 technical books, 6 chapter books, 40 journal papers, and 110 technical conference proceedings. In addition, he has conducted more than thirty research projects with Iranian power companies.
Dr. Eidiani is an Editor-in-Chief for International Journal of Energy Security and Sustainable Energy (www.ijesse.ir), Editorial Board for IET Journal of Engineering, International Journal of Applied Power Engineering, Journal on Advanced Research in Electrical Engineering, Majlesi Journal of Energy Management, Electrical Asre Magazine, Recent Advances in Engineering & Technology, Sustainable Engineering and Innovation, Energy and Power Engineering. He has been a Board Member of Khorasan Electric Generation Company.
Vahideh Heydari was born in Mashhad, Iran in 1990. She received her B.Eng degree in electrical engineering of telecommunication from Imam Reza International University of Mashhad, Iran in 2012 and her M.Eng degree (with distinction) in electrical engineering of control from Khorasan Institute of Higher Education of Mashhad, Iran in 2016. During the master's period, three articles from this student have been accepted, and one of these articles was published in the Control Journal of Khajeh Nasir University of Technology of Tehran, Iran in 2016.